Larval diet affects development and reproduction of East Asian strain of the fall armyworm, Spodoptera frugiperda

doi:10.1016/S2095-3119(19)62879-0

Journal of Integrative Agriculture

2021, Vol. 20

Issue (3): 736-744 DOI: 10.1016/S2095-3119(19)62879-0

Section 3: Biological and ecological characteristics

Advanced Online Publication | Current Issue | Archive | Adv Search

Larval diet affects development and reproduction of East Asian strain of the fall armyworm, Spodoptera frugiperda

HE Li-mei¹, WANG Teng-li², CHEN Yu-chao², GE Shi-shuai², Kris A. G. WYCKHUYS¹, WU Kong-ming¹

¹ State Key Laboratory for Biology of Plant Diseases and Insect Pests, Institute of Plant Protection, Chinese Academy of Agricultural Sciences, Beijing 100193, P.R.China
² State Key Laboratory of Ecological Pest Control for Fujian and Taiwan Crops, Institute of Applied Ecology, Fujian Agriculture and Forestry University, Fuzhou 350002, P.R.China

Abstract
References

Download: PDF in ScienceDirect
Export: BibTeX | EndNote (RIS)

摘要

草地贪夜蛾于2018年12月入侵中国后，对玉米和高粱等农作物生产造成了影响。鉴于草地贪夜蛾的幼虫食性存在明显的品系分化，我们在室内评价了幼期食物（玉米、高粱、小麦、水稻和人工饲料）对入侵种群生长发育和成虫繁殖的影响。研究结果表明，幼虫期的食物对发育历期、化蛹率、蛹的存活率和羽化率以及成虫的繁殖均有显著的影响。取食高粱的幼虫发育期长达19.4天，而取食人工饲料的仅为14.1天。取食人工饲料的幼虫存活率高达99.6%，而取食水稻的仅有0.4%。取食人工饲料以及不同生育期作物叶片的化蛹率和蛹的存活率亦有很大的差异。取食人工饲料的蛹重0.26 g，而取食高粱的仅为0.14 g。取食2叶期玉米的成虫单雌产卵量最高，为699.7粒。取食4-5叶期玉米的卵孵化率为93.6%，显著高于取食人工饲料的36.6%。取食不同食物的草地贪夜蛾种群内禀增长率和周限增长率存在较大的差异，以幼嫩的玉米叶片最为适宜。研究结果对发展草地贪夜蛾入侵种群的室内饲养技术、田间预测预报模型和综合治理技术有重要价值。

Abstract

In December 11, 2018, the fall armyworm (FAW), Spodoptera frugiperda invaded China and has since impacted local maize, sorghum and other crops. Here, we draw on laboratory experiments to show how different host crops (i.e., maize, sorghum, wheat and rice) and artificial diet affect larval growth and adult reproduction of one local FAW strain. Larval diet affected development duration, pupation rate, survival and emergence rate of pupae, and S. frugiperda adult fecundity. FAW attained the slowest larval development (19.4 days) on sorghum and the fastest (14.1 days) on artificial diet, with larvae attaining 99.6% survival on the latter food item. On rice, FAW larvae attained survival rate of 0.4% and were unable to pupate successfully. Pupation rate and pupal survival varied substantially between artificial diet and live plantlets at different phenological stages. Pupal weight was the highest (0.26 g) on artificial diet and the lowest (0.14 g) on sorghum, while FAW females reached the highest fecundity (699.7 eggs/female) on 2-leaf stage maize. Egg hatching rate equaled 93.6% on 4- or 5-leaf stage maize and 36.6% on artificial diet. FAW intrinsic rate of natural increase and the finite rate of increase varied between larval diets, reflecting how young maize leaves are the most suitable diet. Our findings can help to refine laboratory rearing protocols, devise population forecasting models or guide the deployment of ‘area-wide’ integrated pest management (IPM) modules in FAW-invaded areas of China and other Asian countries.

Keywords: developmental duration development fecundity life history insect mass-rearing biology invasion biology

Received: 27 September 2019 Accepted:

Fund: This work was supported by the earmarked fund for China Agriculture Research System (CARS-15-19) and the Central Public-interest Scientific Institution Basal Research Fund, China (Y2019YJ06).

Corresponding Authors: Correspondence WU Kong-ming, Tel: +86-10-82105551, E-mail: wukongming@caas.cn

About author: HE Li-mei, Mobile: +86-18211011592, E-mail: helimei91@163.com;

	Service
	E-mail this article
	Add to citation manager
	E-mail Alert
	RSS

	Articles by authors
	HE Li-mei
	WANG Teng-li
	CHEN Yu-chao
	GE Shi-shuai
	Kris A. G. WYCKHUYS
	WU Kong-ming

Cite this article:

HE Li-mei, WANG Teng-li, CHEN Yu-chao, GE Shi-shuai, Kris A. G. WYCKHUYS, WU Kong-ming. 2021. Larval diet affects development and reproduction of East Asian strain of the fall armyworm, Spodoptera frugiperda. Journal of Integrative Agriculture, 20(3): 736-744.

Adler L S. 2000. The ecological significance of toxic nectar. Oikos, 91, 409–420.
Andrews K L. 1988. Latin american research on Spodoptera frugiperda (Lepidoptera: Noctuidae). Florida Entomologist, 71, 630–653.
Asiimwe P, Ecaat J S, Otim M, Gerling D, Kyamanywa S, Legg J P. 2007. Life-table analysis of mortality factors affecting populations of Bemisia tabaci on cassava in Uganda. Entomologia Experimentalis et Applicata, 122, 37–44.
Awmack C S, Leather S R. 2002. Host plant quality and fecundity in herbivorous insects. Annual Review of Entomology, 47, 817–844.
Barros E M, Torres J B, Ruberson J R, Oliveira M D. 2010. Development of Spodoptera frugiperda on different hosts and damage to reproductive structures in cotton. Entomologia Experimentalis et Applicata, 137, 237–245.
Baudron F, Zaman-Allah M A, Chaipa I, Chari N, Chinwada P. 2019. Understanding the factors influencing fall armyworm (Spodoptera frugiperda JE Smith) damage in African smallholder maize fields and quantifying its impact on yield. A case study in Eastern Zimbabwe. Crop Protection, 120, 141–150.
Blair W C, Lorraine W S, Jeremy M G, Nic V, Ed T F W, Marcus J B. 2019. Does host plant quality constrain the performance of the Parthenium beetle Zygogramma bicolorata? Biological Control, doi: 10.1016/j.biocontrol.2019.104078.
CABI (Commonwealth Agricultural Bureaux International). 2017. Invasive species compendium datasheets – Spodoptera frugiperda (fall armyworm). [2017-12-01]. http://www.cabi.org/isc/datasheet/29810
Cañas L A, O’Neil R J, Gibb T J. 2002. Population ecology of Leptinotarsa undecimlineata Stål (Coleoptera: Chrysomelidae): Population dynamics, mortality factors, and potential natural enemies for biological control of the Colorado potato beetle. Biological Control, 24, 50–64.
Casmuz A, Juárez M L, Socías M G, Murúa M G, Prieto S, Medina S, Willink E, Gastaminza G. 2010. Revisión de los hospederos del gusano cogollero del maíz, Spodoptera frugiperda (Lepidoptera: Noctuidae). Revista de la Sociedad Entomológica Argentina, 69, 209–231. (in Spanish)
Chi H. 1988. Life-table analysis incorporating both sexes and variable development rate among individuals. Environmental Entomology, 17, 26–34.
Chi H. 2019. TWOSEX-MSChart: a computer program for the age-stage, two-sex life table analysis. National Chung Hsing University, Taichung, Taiwan, China.
Chi H, Liu H. 1985. Two new methods for the study of insect population ecology. Bulletion of the Institute of Zoology, Academia Sinica, 24, 225–240.
Dias A S, Marucci R C, Mendes S M, Moreira S G, Araújo O G, Santos C A, Barbosa T A. 2016. Bioecology of Spodoptera frugiperda (Smith, 1757) in different cover crops. Bioscience Journal, 32, 337–345.
Dumas P, Legeai F, Lemaitre C, Scaon E, Orsucci M, Labadie K, Gimenez S, Clamens A L, Henri H, Vavre F, Aury J M, Fournier P, Kergoat G J, d’Alencon E. 2015. Spodoptera frugiperda (Lepidoptera: Noctuidae) host-plant variants: Two host strains or two distinct species? Genetica, 143, 305–316.
Early R, Gonzalez M P, Murphy S T, Day R. 2018. Forecasting the global extent of invasion of the cereal pest Spodoptera frugiperda, the fall armyworm. NeoBiota, 40, 25–50.
Eduardo M S, Julián P, Pablo M C, Diego T T, Valeria P C, Ignacio M S. 2018. Pupal emergence pattern in cactophilic Drosophila and the effect of host plants. Insect Science, 25, 1108–1118.
FAO (Food and Agriculture Organization). 2018. First detection of fall army worm on the border of Thailand [EB/OL]. [2018-12-20]. https://www.ippc.int/en/countries/thailand/pestreports/2018/12/first-detection-of-fall-army-worm-on-the-border-of-tailand/
de Freitas Bueno R C O, de Freitas Bueno A, Moscardi F, Postali Parra J R, Hoffmann-Campo C B. 2011. Lepidopteran larvae consumption of soybean foliage: Basis for developing multiple-species economic thresholds for pest management decisions. Pest Management Science, 67, 170–174.
Goergen G, Kumar P L, Sankung S B, Togola A, Tamò M. 2016. First report of outbreaks of the fall armyworm Spodoptera frugiperda (J E Smith) (Lepidoptera, Noctuidae), a new alien invasive pest in West and Central Africa. PLoS ONE, 11, e0165632.
Greene G L, Leppla N C, Dickerson W A. 1976. Velvetbean caterpillar: A rearing procedure and artificial medium. Journal of Economic Entomology, 69, 487–488.
Hardke J T, Lorenz G M, Leonard B R. 2015. Fall armyworm (Lepidoptera: Noctuidae) ecology in south-eastern cotton. Journal of Integrated Pest Management, 6, 10.
Hou M L, Sheng C F. 2000. Effects of different foods on growth, development and reproduction of cotton bollworm, Helicoverpa armigera (Hǜbner) (Lepidoptera: Noctuidae). Acta Entomologica Sinica, 43, 168–175. (in Chinese)
Hu C X, Yang M F, Zhi J R, Zhu Y, Li X L, Tan X F, Jin D C. 2019. Potential hazard of fall armyworm Spodoptera frugiperda to agricultural production and control strategies in Guizhou Province. Journal of Mountain Agriculture and Biology, 38, 1–5. (in Chinese)
Huang Q, Jiang X B, Ling Y, Jiang T, Chen Y C, Long D, Fu C Q, Wu B Q, Huang S S, Li C, Huang F K, Long L P. 2018a. Growth, development and reproduction of Leucania loreyi (Duponchel) on four host plants. Journal of South China Agricultural University, 39, 48–53. (in Chinese)
Huang Q, Jiang X B, Ling Y, Jiang T, Chen Y C, Long D, Long L P. 2018b. A comparative study on growth, development and reproduction of Mythimna separata in four host plants. China Plant Protection, 38, 5–10. (in Chinese)
Huang Y B, Chi H. 2012. Age-stage, two-sex life tables of Bactrocera cucurbitae (Coquillett) (Diptera: Tephritidae) with a discussion on the problem of applying female age-specific life tables to insect populations. Insect Science, 19, 263–273.
Jabraeil R, Bahram N, Seyed A H. 2014. Comparative performance of the cotton bollworm, Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae) on various host plants. Journal of Pest Science, 87, 29–37.
Johnson S J. 1987. Migration and the life history strategy of the fall armyworm, Spodoptera frugiperda in the western hemisphere. International Journal of Tropical Insect Science, 8, 543–549.
Jonas J, Viktor B, Rüduger W, Martin P, Peter H. 2019. Elevated temperatures translate into reduced dispersal abilities in a natural population of an aquatic insect. The Journal of Animal Ecology, 88, 1498–1509.
Levin E, McCue M D, Davidowitz G. 2017. More than just sugar: Allocation of nectar amino acids and fatty acids in a Lepidopteran. Proceedings of the Royal Society (B: Biological Sciences), 284, 2126.
Li L T, Ma J F, Zhang A B, Dong L, Liu L, Gan Y J, Dong Z P. 2013. Effects of different foods on growth, development and reproduction of Athetis lepigone. China Plant Protection, 33, 42–45. (in Chinese)
Li Y, Leng C M, Hu D, Wu J X, Li Y P. 2019. Effects of host plants on growth, development and fecundity of Plutella xylostella L. Acta Agriculturae Boreali-occidentalis Sinica, 28, 475–480. (in Chinese)
Liu H, Zeng F Y, Liu Q. 2014. Geographical distribution of Sorghum Moench (Poaceae). Journal of Tropical and Subtropical Botany, 22, 1–11. (in Chinese)
Liu J, Jiang Y Y, Li H, Li Y H, Tai H S, Wang Z Y. 2019. Preliminary report on a Spodoptera frugiperda feeding on sugarcane. China Plant Protection, 39, 35–36. (in Chinese)
Luginbill P. 1928. The Fall Army Worm. US Department of Agriculture, Washington D.C. pp. 2–7.
Megersa K, Tamiru S. 2018. Out-break, distribution and management of fall armyworm, Spodoptera frugiperda J.E. Smith in Africa: The status and prospects. Academy of Agriculture Journal, 3, 551–568.
Mevi-Schütz J, Erhardt A. 2005. Amino acids in nectar enhance butterfly fecundity: A long-awaited link. The American Naturalist, 165, 411–419.
Midega C A O, Pittchar J O, Pickett J A, Hailu G W, Khan Z R. 2018. A climate-adapted push-pull system effectively controls fall armyworm, Spodoptera frugiperda (J E Smith), in maize in East Africa. Crop Protection, 105, 10–15.
Montezano D G, Specht A, Sosa-Gómez D R, Roque-Specht V F, Sousa-Silva J C, Paula-Moraes S V, Peterson J A, Hunt T E. 2018. Host plants of Spodoptera frugiperda (Lepidoptera: Noctuidae) in the Americas. African Entomology, 26, 286–301.
Nakweta G. 2018. Global actions needed to combat fall armyworm. [2018-10-05]. https://www.scidev.net/sub-saharan-africa/farming/news/global-actions-combat-fall-armyworm.html
Naranjo S E, Ellsworth P C. 2005. Mortality dynamics and population regulation in Bemisia tabaci. Entomologia Experimentalis et Applicata, 116, 93–108.
Pan F, Chen M C, Xiao T B, Ji X C, Xie S H. 2014. Research advances on effect of variable temperature on growth, development and reproduction of insect. Journal of Environmental Entomology, 36, 240–246. (in Chinese)
Pitre H N, Hogg D B. 1983. Development of the fall armyworm on cotton, soybean and corn. Journal of the Georgia Entomology Society, 18, 182–187.
Romo C M, Bader M K F, Pawson S M. 2019. Inner log temperatures vary with log direction and forest cover: Implications for predicting the phenology of saproxylic insects. Agricultural and Forest Meteorology, 275, 329–339.
de Sá V G M, Fonseca B V C, Boregas K G B, Waquil J M. 2009. Survival and larval development of Spodoptera frugiperda (J E Smith) (Lepidoptera: Noctuidae) on alternatives host. Neotropical Entomology, 38, 108–115. (in Português)
Shi C H, Hu J R, Zhang Y J. 2017. Effects of heat stress on insect reproduction-physiology and outlook in agricultural insect pests control. China Plant Protection, 37, 24–32. (in Chinese)
Smith J E, Abbott J. 1797. The Natural History of the Rarer Lepidopterous Insects of Georgia: Including Their Systematic Characters, the Particulars of Their Several Metamorphoses, and the Plants on Which They Feed. Collected from the observations of Mr. John Abbot, many years resident in that country. Missouri Botanical Garden Press, London. pp. 191–192.
Sun X X, Hu C X, Jia H R, Wu Q L, Shen X J, Zhao S Y, Jiang Y Y, Wu K M. 2021. Case study on the first immigration of fall armyworm, Spodoptera frugiperda invading into China. Journal of Integrative Agriculture, 20, 664–672.
Sparks A N. 1979. A review of the biology of the fall armyworm. The Florida Entomologist, 62, 82–86.
Teng H Y, Wang D S, Shi P X, Yuan Y D, Zhang S. 2012. Effects of different host plants on development of Spodoptera exigua. Chinese Journal of Applied Entomology, 49, 1474–1481. (in Chinese)
Tu Y G, Wu K M, Xue F S, Guo Y Y. 2008. Influence of host plants on larval development, adult fecundity and flight ability of the common cutworm, Spodoptera litura. Cotton Science, 20, 105–109. (in Chinese)
Wang G H, Zhao Q J, Cui J. 2015. Effects of different foodstuff on growth and development of Prodenia litura. Guizhou Agricultural Sciences, 43, 72–74. (in Chinese)
Wang K Y, Zhang Y, Wang H Y, Xia X M, Liu T X. 2008. Biology and life table studies of the oriental tobacco budworm, Helicoverpa assulta (Lepidoptera: Noctuidae), influenced by different larval diets. Insect Science, 15, 569–576.
Wu Z W, Shi P Q, Zeng Y H, Huang W F, Huang Q Z, Ma X H, Guo L Z. 2019. Population life tables of Spodoptera frugiperda (Lepidoptera: Noctuidae) fed on three host plants. Plant Protection, 45, 59-64. (in Chinese)
Xu P J, Zhang D D, Wang J, Wu K M, Wang X W, Wang X F, Ren G W. 2019. The host preference of Spodoptera frugiperda on maize and tobacco. Plant Protection, 45, 61–64. (in Chinese)
Yang X L, Liu Y C, Luo M Z, Li Y, Wang W H, Wan F, Jiang H. 2019. Spodoptera frugiperda (J E Smith) was first discovered in Jiangcheng County of Yunnan Province in southwestern China. Yunnan Agriculture, (01), 72. (in Chinese)
Yin J, Cao Y Z, Luo L Z, Hu Y. 2004. Effects of host plants on population increase of meadow moth, Loxostege sticticalis L. Acta Phytophylacica Sinica, 31, 173–178. (in Chinese)
Zhang B, Liu H, Hull-Sanders H, Wang J J. 2011. Effect of host plants on development, fecundity and enzyme activity of Spodoptera exigua (Hübner) (Lepidoptera: Noctuidae). Agricultural Sciences in China, 10, 1232–1240.
Zhang L, Liu B, Zheng W G, Liu C H, Zhang D D, Zhao S Y, Xu P J, Wilson K, Withers A, Jones C M, Smith J A, Chipabika G, Kachigamba D L, Nam K, d’Alençon E, Liu B, Liang X Y, Jin M H, Wu C, Chakrabarty S, et al. 2019. High-depth resequencing reveals hybrid population and insecticide resistance characteristics of fall armyworm (Spodoptera frugiperda) invading China. BioRxiv, doi: 10.1101/813154.
Zhang L L, Li Y H, Wu J X. 2013. Effects of various host plants on the development and protective enzyme activity of the black cutworm, Agrotis ypsilon. Chinese Journal of Applied Entomology, 50, 1049–1054. (in Chinese)
Zhang S, Wu M F, Gu S H, Li X C. 2019. Oviposition preference of female adults of Helicoverpa armigera to 16 host plants and larval performance. Plant Protection, 45, 108–113. (in Chinese)
Zhang Y, Xin H J, Wang K Y, Ma H, Gu C B. 2005. Effects of different host plants on biological characteristics and resistance of Helicoverpa armigera. China Cotton, 32, 10–11. (in Chinese)
Zhou Y C, He H M, Xue F S. 2018. The effects of photoperiod and temperature on diapause induction in the Tai’an population of cabbage beetle, Colaphellus bowringi Baly. Journal of Environmental Entomology, 40, 123–128. (in Chinese)

[1]	LIU Na, LIAN Sen, ZHOU Shan-yue, WANG Cai-xia, REN Wei-chao, LI Bao-hua. Involvement of the autophagy-related gene BdATG8 in development and pathogenicity in Botryosphaeria dothidea[J]. >Journal of Integrative Agriculture, 2022, 21(8): 2319-2328.
[2]	GUO Xiao-yue, LIU Ning, LIU Bing-hui, ZHOU Li-hong, CAO Zhi-yan, HAN Jian-min, DONG Jin-gao . *Melanin, DNA replication, and autophagy affect appressorium development in Setosphaeria turcica* by regulating glycerol accumulation and metabolism**[J]. >Journal of Integrative Agriculture, 2022, 21(3): 762-773.
[3]	LI Yong-ping, LIU Tian-jia, LUO Hui-feng, LIU Sheng-cai . *The transcriptional landscape of cultivated strawberry (Fragaria×ananassa) and its diploid ancestor (Fragaria vesca) during fruit development*[J]. >Journal of Integrative Agriculture, 2021, 20(6): 1540-1553.
[4]	ZHOU Xian-yong, WU Qiu-lin, JIA Hui-ru, WU Kong-ming. Searchlight trapping reveals seasonal cross-ocean migration of fall armyworm over the South China Sea[J]. >Journal of Integrative Agriculture, 2021, 20(3): 673-684.
[5]	GE Shi-shuai, HE Li-mei, HE Wei, YAN Ran, Kris A. G. WYCKHUYS, WU Kong-ming . Laboratory-based flight performance of the fall armyworm, Spodoptera frugiperda[J]. >Journal of Integrative Agriculture, 2021, 20(3): 707-714.
[6]	HE Li-mei, JIANG Shan, CHEN Yu-chao, Kris A. G. WYCKHUYS, GE Shi-shuai, HE Wei, GAO Xi-wu, WU Kong-ming . *Adult nutrition affects reproduction and flight performance of the invasive fall armyworm, Spodoptera frugiperda* in China**[J]. >Journal of Integrative Agriculture, 2021, 20(3): 715-726.
[7]	GE Shi-shuai, HE Wei, HE Li-mei, YAN Ran, ZHANG Hao-wen, WU Kong-ming. Flight activity promotes reproductive processes in the fall armyworm, Spodoptera frugiperda[J]. >Journal of Integrative Agriculture, 2021, 20(3): 727-735.
[8]	HE Li-mei, WU Qiu-lin, GAO Xi-wu, WU Kong-ming . *Population life tables for the invasive fall armyworm, Spodoptera frugiperda* fed on major oil crops planted in China**[J]. >Journal of Integrative Agriculture, 2021, 20(3): 745-754.
[9]	LI Hui, JIANG Shan-shan, ZHANG Hao-wen, GENG Ting, Kris A. G. WYCKHUYS, WU Kong-ming . *Two-way predation between immature stages of the hoverfly Eupeodes corollae* and the invasive fall armyworm (Spodoptera frugiperda J. E. Smith)**[J]. >Journal of Integrative Agriculture, 2021, 20(3): 829-839.
[10]	SU Hong-hua, JIANG Tao, SUN Yu, GU Hui-jie, WU Jiao-jiao, YANG Yi-zhong. *Effect of three insect-resistant maizes expressing Cry1Ie, Cry1Ab/Cry2Aj and Cry1Ab on the growth and development of armyworm Mythimna separata* (Walker)**[J]. >Journal of Integrative Agriculture, 2020, 19(7): 1842-1849.
[11]	ZHAO Xiao-fan. Progress in understanding hormonal regulation during the post-embryonic development of Helicoverpa armigera[J]. >Journal of Integrative Agriculture, 2020, 19(6): 1417-1428.
[12]	LIU Kai, CHEN Zhan, SU Qin, YUE Lei, CHEN Wei-wen, ZHANG Wen-qing. Comparative analysis of the ecological fitness and transcriptome between two genotypes of the brown planthopper Nilaparvata lugens[J]. >Journal of Integrative Agriculture, 2020, 19(6): 1501-1511.
[13]	LIU Huan, ZHANG Dong-ju, XU Yi-juan, WANG Lei, CHENG Dai-feng, QI Yi-xiang, ZENG Ling, LU Yong-yue. *Invasion, expansion, and control of Bactrocera dorsalis* (Hendel) in China**[J]. >Journal of Integrative Agriculture, 2019, 18(4): 771-787.
[14]	WANG Lei, XU Yi-juan, ZENG Ling, LU Yong-yue. *Impact of the red imported fire ant Solenopsis invicta* Buren on biodiversity in South China: A review**[J]. >Journal of Integrative Agriculture, 2019, 18(4): 788-796.
[15]	ZHAO Yu-qiang, TIAN Yan-li, WANG Li-min, GENG Guo-min, ZHAO Wen-jun, HU Bai-shi, ZHAO You-fu. Fire blight disease, a fast-approaching threat to apple and pear production in China[J]. >Journal of Integrative Agriculture, 2019, 18(4): 815-820.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Shared

Discussed

Cite this article:

About JIA

Editorial board

For authors